2020
DOI: 10.3390/antiox9030191
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Utilizing Iron for Targeted Lipid Peroxidation as Anticancer Option of Integrative Biomedicine: A Short Review of Nanosystems Containing Iron

Abstract: Traditional concepts of life sciences consider oxidative stress as a fundamental process of aging and various diseases including cancer, whereas traditional medicine recommends dietary intake of iron to support physiological functions of the organism. However, due to its strong pro-oxidative capacity, if not controlled well, iron can trigger harmful oxidative stress manifested eventually by toxic chain reactions of lipid peroxidation. Such effects of iron are considered to be major disadvantages of uncontrolle… Show more

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Cited by 28 publications
(20 citation statements)
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“…Transition metals, such as iron, can promote ROS and support tumorigenesis [19,20]. O 2 •− and H 2 O 2 are accessible to iron via the Fenton reaction, converting them to • OH, and can contribute to the initiation of ferroptosis [21], which is also considered in anticancer approaches as a potential target for oncotherapy [22]. On the other hand, ROS can also damage DNA, causing strand breaks or oxidative DNA lesions.…”
Section: Reactive Oxygen Species-friend or Foe?mentioning
confidence: 99%
“…Transition metals, such as iron, can promote ROS and support tumorigenesis [19,20]. O 2 •− and H 2 O 2 are accessible to iron via the Fenton reaction, converting them to • OH, and can contribute to the initiation of ferroptosis [21], which is also considered in anticancer approaches as a potential target for oncotherapy [22]. On the other hand, ROS can also damage DNA, causing strand breaks or oxidative DNA lesions.…”
Section: Reactive Oxygen Species-friend or Foe?mentioning
confidence: 99%
“…Some recent advances have been made regarding the synthesis of NPs loaded with metals, mainly with iron, which can facilitate lipid peroxidation in cancer cells [234,238,239]. As previously indicated, iron overload produces an increase in random peroxidation products that is entirely unspecific and could lead to harmful oxidative stress in non-cancer cells.…”
Section: The Future Of Nanoparticles (Np) For Cancer Targeting and Timentioning
confidence: 99%
“…Some recent advances have been made regarding the synthesis of NPs loaded with metals, mainly with iron, which can facilitate lipid peroxidation in cancer cells [234,238,239]. As previously indicated, iron overload produces an increase in random peroxidation products that is entirely DHODH 14 [229] 2-(4-(2,6-difluorophenoxy)-3isopropoxy-5-methy l-1H-pyrazol-1-yl) -5-ethylpyrimidine (BDBM50070908) [230] 0.02 (Jurkat cells) Human lymphocytes [231] Molecules 2020, 25 14 [229] 2-(4-(2,6-difluorophenoxy)-3-isopropoxy-5-methyl-1Hpyrazol-1-yl)-5ethylpyrimidine (BDBM50070908) [230] 0.02 (Jurkat cells) Human lymphocytes [231] Kinetic parameters were obtained from BRENDA enzyme database [89].…”
Section: The Future Of Nanoparticles (Np) For Cancer Targeting and Timentioning
confidence: 99%
“…α‐LA serves as a critical part in preventing neuronal loss and ferroptosis (Y. H. Zhang, Wang, et al, 2018). Ferroptosis is a kind of cell control death related to the accumulation of lipid‐related reactive oxygen species (ROS), accompanied by increased iron concentration and malondialdehyde (MDA) level (Huang et al, 2020), and 4‐hydroxynonenal (4‐HNE) is a final product of lipid peroxidation (Jaganjac et al, 2020). Ferroptosis is an iron‐dependent form of regulated cell death and has been proven to be related to various neurodegenerative diseases (Guiney et al, 2017; Weiland et al, 2019; Zhou et al, 2020).…”
Section: Introductionmentioning
confidence: 99%